Weaker Constraint Qualifications in Maximal Monotonicity

The literature on stochastic programming typically restricts attention to problems that fulfill constraint qualifications. The literature on estimation and inference under partial identification frequently restricts the geometry of identified sets with diverse high-level assumptions. These superficially appear to be different approaches to closely related problems. We extensively analyze their relation. Among other things, we show that for partial identification through pure moment inequalities, numerous assumptions from the literature essentially coincide with the Mangasarian–Fromowitz constraint qualification. This clarifies the relation between well-known contributions, including within econometrics, and elucidates stringency, as well as ease of verification, of some high-level assumptions in seminal papers.

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Geometry of optimality conditions and constraint qualifications: The convex case

Mathematical Programming ◽

10.1007/bf01581627 ◽

1980 ◽

Vol 19 (1) ◽

pp. 32-60 ◽

Cited By ~ 20

Author(s):

Henry Wolkowicz

Keyword(s):

Optimality Conditions ◽

Constraint Qualifications ◽

Convex Case

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CONSTANT RANK CONSTRAINT QUALIFICATIONS: A GEOMETRIC INTRODUCTION

Pesquisa Operacional ◽

10.1590/0101-7438.2014.034.03.0481 ◽

2014 ◽

Vol 34 (3) ◽

pp. 481-494 ◽

Cited By ~ 3

Author(s):

Roberto Andreani ◽

Paulo J.S. Silva

Keyword(s):

Constraint Qualifications ◽

Constant Rank ◽

Rank Constraint

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Naive constant rank-type constraint qualifications for multifold second-order cone programming and semidefinite programming

Optimization Letters ◽

10.1007/s11590-021-01737-w ◽

2021 ◽

Author(s):

R. Andreani ◽

G. Haeser ◽

L. M. Mito ◽

H. Ramírez ◽

D. O. Santos ◽

...

Keyword(s):

Semidefinite Programming ◽

Constraint Qualifications ◽

Second Order ◽

Constant Rank ◽

Cone Programming ◽

Second Order Cone Programming ◽

Second Order Cone ◽

Type Constraint

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Relations between Abs-Normal NLPs and MPCCs. Part 2: Weak Constraint Qualifications

Journal of Nonsmooth Analysis and Optimization ◽

10.46298/jnsao-2021-6673 ◽

2021 ◽

Vol Volume 2 (Original research articles>) ◽

Author(s):

Lisa C. Hegerhorst-Schultchen ◽

Christian Kirches ◽

Marc C. Steinbach

Keyword(s):

Normal Form ◽

Optimization Problems ◽

Constraint Qualifications ◽

Inequality Constraints ◽

First Order ◽

Nonlinear Programs ◽

Mathematical Programs ◽

Ongoing Effort ◽

Equality And Inequality Constraints ◽

Smooth Optimization

This work continues an ongoing effort to compare non-smooth optimization problems in abs-normal form to Mathematical Programs with Complementarity Constraints (MPCCs). We study general Nonlinear Programs with equality and inequality constraints in abs-normal form, so-called Abs-Normal NLPs, and their relation to equivalent MPCC reformulations. We introduce the concepts of Abadie's and Guignard's kink qualification and prove relations to MPCC-ACQ and MPCC-GCQ for the counterpart MPCC formulations. Due to non-uniqueness of a specific slack reformulation suggested in [10], the relations are non-trivial. It turns out that constraint qualifications of Abadie type are preserved. We also prove the weaker result that equivalence of Guginard's (and Abadie's) constraint qualifications for all branch problems hold, while the question of GCQ preservation remains open. Finally, we introduce M-stationarity and B-stationarity concepts for abs-normal NLPs and prove first order optimality conditions corresponding to MPCC counterpart formulations.

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On implicit variables in optimization theory

Journal of Nonsmooth Analysis and Optimization ◽

10.46298/jnsao-2021-7215 ◽

2021 ◽

Vol Volume 2 (Original research articles) ◽

Author(s):

Matúš Benko ◽

Patrick Mehlitz

Keyword(s):

Optimization Problems ◽

Constraint Qualifications ◽

Optimization Theory ◽

Mathematical Optimization ◽

General Setting ◽

Necessary Optimality Conditions ◽

Detailed Comparison ◽

Mordukhovich Stationarity ◽

Stationarity Conditions ◽

The One

Implicit variables of a mathematical program are variables which do not need to be optimized but are used to model feasibility conditions. They frequently appear in several different problem classes of optimization theory comprising bilevel programming, evaluated multiobjective optimization, or nonlinear optimization problems with slack variables. In order to deal with implicit variables, they are often interpreted as explicit ones. Here, we first point out that this is a light-headed approach which induces artificial locally optimal solutions. Afterwards, we derive various Mordukhovich-stationarity-type necessary optimality conditions which correspond to treating the implicit variables as explicit ones on the one hand, or using them only implicitly to model the constraints on the other. A detailed comparison of the obtained stationarity conditions as well as the associated underlying constraint qualifications will be provided. Overall, we proceed in a fairly general setting relying on modern tools of variational analysis. Finally, we apply our findings to different well-known problem classes of mathematical optimization in order to visualize the obtained theory. Comment: 34 pages

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Optimality criteria without constraint qualifications for linear semidefinite problems

Journal of Mathematical Sciences ◽

10.1007/s10958-012-0734-2 ◽

2012 ◽

Vol 182 (2) ◽

pp. 126-143 ◽

Cited By ~ 6

Author(s):

O. I. Kostyukova ◽

T. V. Tchemisova

Keyword(s):

Constraint Qualifications ◽

Optimality Criteria

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Improved Convergence Properties of the Relaxation Schemes of Kadrani et al. and Kanzow and Schwartz for MPEC

Asia Pacific Journal of Operational Research ◽

10.1142/s0217595918500082 ◽

2018 ◽

Vol 35 (01) ◽

pp. 1850008

Author(s):

Na Xu ◽

Xide Zhu ◽

Li-Ping Pang ◽

Jian Lv

Keyword(s):

Linear Dependence ◽

Constraint Qualification ◽

Constraint Qualifications ◽

Accumulation Point ◽

Stationary Points ◽

Nondegeneracy Condition ◽

Equilibrium Constraints ◽

Convergence Properties ◽

Constant Rank Constraint Qualification ◽

Relaxation Schemes

This paper concentrates on improving the convergence properties of the relaxation schemes introduced by Kadrani et al. and Kanzow and Schwartz for mathematical program with equilibrium constraints (MPEC) by weakening the original constraint qualifications. It has been known that MPEC relaxed constant positive-linear dependence (MPEC-RCPLD) is a class of extremely weak constraint qualifications for MPEC, which can be strictly implied by MPEC relaxed constant rank constraint qualification (MPEC-RCRCQ) and MPEC relaxed constant positive-linear dependence (MPEC-rCPLD), of course also by the MPEC constant positive-linear dependence (MPEC-CPLD). We show that any accumulation point of stationary points of these two approximation problems is M-stationarity under the MPEC-RCPLD constraint qualification, and further show that the accumulation point can even be S-stationarity coupled with the asymptotically weak nondegeneracy condition.

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